Method to characterize microfractured hydrocarbon reservoirs by artificially induced anisotropy of magnetic susceptibility

a technology of hydrocarbon reservoirs and anisotropy, which is applied in the field of petrophysics and performance evaluation of subterranean naturally fractured hydrocarbon reservoirs, can solve the problems of inability to readily characterize microfractures by visual methods using core samples, low resolution of microfractures using borehole images, and often inaccurate assessment of fracture-related physical characteristics. , to achieve the effect of enhancing magnetic susceptibility, enhancing magnetic susceptibility, and enhancing magnetic susceptibility

Active Publication Date: 2006-10-24
SAUDI ARABIAN OIL CO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008]Briefly, the present invention provides analyzing a subsurface, naturally fractured, hydrocarbon reservoir of interest to characterize the reservoir. Rock specimens are obtained from a core sample from the hydrocarbon reservoir. The remanent magnetization of the rock specimens is then determined and the natural magnetic susceptibility of a first of the rock specimens is determined. A second of the rock specimens is then saturated with a magnetic fluid to enhance its magnetic susceptibility, and the enhanced magnetic susceptibility of the second rock specimen is determined. From the natural magnetic susceptibility of the first specimen and the enhanced magnetic susceptibility of the second specimen, one or more characterizations of the subsurface hydrocarbon reservoir are then determined.

Problems solved by technology

Accordingly, microfractures cannot, so far as is known, be readily characterized by visual methods using core samples.
Further, microfractures are below the resolution levels of borehole images.
Results obtained from these methods gave only rough assessments, and that often inaccurate ones, of the fracture-related physical characteristics of the formation rocks of interest.
These techniques were also very time consuming and expensive.
Further, they did not permit precise or direct assessment of the microfractures' contribution to rock petrophysics.

Method used

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  • Method to characterize microfractured hydrocarbon reservoirs by artificially induced anisotropy of magnetic susceptibility
  • Method to characterize microfractured hydrocarbon reservoirs by artificially induced anisotropy of magnetic susceptibility
  • Method to characterize microfractured hydrocarbon reservoirs by artificially induced anisotropy of magnetic susceptibility

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Embodiment Construction

I. Introduction

[0048]The present invention is based on using the artificially enhanced magnetic susceptibility anisotropy or AMS of rock samples from subsurface formations for the characterization of microfractures, and associated porosity and permeability anisotropy in subsurface hydrocarbon reservoirs of interest.

[0049]The present invention provides a non-destructive, quick, precise and reliable method for the detection and characterization of open, connected microfractures in hydrocarbon reservoirs. Existing methods are based on optical and scanning-electron microscopy, which is a laborious, costly method with a considerably higher margin of error than the AMS-based method of the present invention. Results obtained with the present invention permit analysis to characterize microfractures in terms of detection, orientation, porosity, and permeability anisotropy for reservoir management purposes.

[0050]Three separate characteristics of the enhanced AMS as described herein are applic...

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Abstract

Subterranean hydrocarbon reservoirs are analyzed by characterizing the relative presence and character of microfractures in rock samples from the reservoirs. Core samples are saturated with a suspension of magnetite particles of known concentration. The samples are then subjected to an applied magnetic field of known strength. The anisotropy of magnetic susceptibility, or AMS, of the samples is then observed, providing a measure of grain orientation in the samples. The characteristics of the microfractures in the samples are thus available to characterize the reservoirs, and in particular the contribution of the microfractures to the porosity and permeability of formations in the reservoirs.

Description

BACKGROUND OF THE INVENTION[0001]1. Field of the Invention[0002]The present invention herein relates to evaluation of performance and petrophysics of subterranean naturally-fractured hydrocarbon reservoirs.[0003]2. Description of the Related Art[0004]In evaluating subsurface reservoirs of interest for the presence and production of hydrocarbons, two types reservoirs are commonly encountered. The first and more often encountered type of subsurface hydrocarbon reservoir is what has become known as a conventional or non-fractured reservoir. The formation rock has an inherent porosity and permeability because of its lithological and textural composition, with connected “conventional reservoir” pores, and hydrocarbon fluids can therefore accumulate in the rock. The other type of reservoir is what is known as a microfractured reservoir, in which porosity and / or permeability is not inherent from the time of rock deposition. The two types of reservoirs are different types of reservoirs with...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): G01V3/08
CPCG01V3/081
Inventor AMEEN, MOHAMMED S.HALIWOOD, ERNEST A.
Owner SAUDI ARABIAN OIL CO
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